Vitamin D is not seen anymore only as a phosphocalcic hormone, but also as having an effect on global health (anti-infective, anti-inflammatory, anti-tumour roles and cardiovascular protection). The link between vitamin D deficiency and osteomalacia lesions is well-known. In paediatrics, systematic vitamin D supplementation of infants and toddlers, associated with milk enrichment, has allowed an almost total disappearance of rickets. Vitamin D repletion was defined as the minimal concentration that enables the prevention of rickets in children and osteomalacia in adults, that is approximately 8 ng/mL (20 nmol/L). However, in 2010, most of the international experts agreed to set minimal threshold of 25 OH vitamin D serum concentration, higher than the one previously admitted, with a limit of 20 ng/mL (50 nmol/L) to define a vitamin D deficiency and a limit of 30 ng/mL (75 nmol/L) to define vitamin D insufficiency in adults. In the paediatric population, the consensus is less obvious and we consider that a serum concentration of minimum 20 ng/mL is necessary. A study on more than 200 children from Lyon, followed in the paediatric nephrology unit and having a renal function normal or sub-normal, demonstrated an important prevalence of vitamin D deficiency (75%) in adolescents and pre-adolescents. Concurrently, the appearance of new bone imaging techniques (especially high-resolution peripheral quantitative computed tomography HR-pQCT) improved bone status evaluation in a non-invasive manner. Given the new pathophysiological data on pleiotropic role of vitamin D (bone, cardiovascular system, adipose tissue) and given the proportion of French children possibly suffering from vitamin D deficiency, it seems urgent to actualize current recommendations regarding systematic supplementation in vitamin D. This transversal study on 200 healthy children and adolescents will allow to have an overview of vitamin D status in French healthy children and adolescents, studying with non-invasive, safe, reliable and innovative tools, the theoretical targets of vitamin D (bones, cardiovascular system and nutritional status); and then to lay the foundations of therapeutic trials aiming to evaluate the mode of vitamin D supplementation for healthy children and adolescents; while having a cohort for HR-pQCT measurements, that will allow us to have French reference range in a 10-17 year-old population, for this innovative, non-invasive and low radiation exposure technique.
To study the correlation between bone assessment by high-resolution peripheral quantitative computed tomography (HR-pQCT) and vitamin D serum concentration.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
HEALTH_SERVICES_RESEARCH
Masking
NONE
Enrollment
100
* Visit 1: questioning, physical examination, blood sampling (including plasma collection for future genetic analyses), carotid ultrasound * Visit 2 (same day as visit 1 or maxi 3 months later): HR-pQCT, dual energy x-ray absorptiometry (DXA), iontophoresis of acetylcholine and sodium nitroprusside
Hôpital Femme Mère Enfant
Lyon, France
To study the correlation between the results of bone microarchitecture obtained by high-resolution peripheral quantitative computed tomography (HR-pQCT) and vitamin D serum concentration.
The HR-pQCT evaluates bones down to the level of the tiny individual elements that nature configures in a way that makes bones as strong as possible. HR-pQCT measures bone density and quantifies the three dimensional geometry, strength and microarchitecture of bone at the lower arm (radius) and lower leg (tibia).
Time frame: up to 3 months
Values and standard deviation of 25-OH vitamin D3 plasma concentration concentration in the population studied.
Blood intake.
Time frame: Once. At inclusion (V1).
To study the correlation between vitamin D plasma concentration and nutritional and pubertal status, cardiovascular status, inflammatory status .
Nutritional and pubertal status will be assessed thanks to: Body Mass Index, Dual-energy X-ray Absorptiometry, adipokines level. Cardiovascular status will be assessed thanks to arterial pressure, Intima-media Thickness (IMT), Extra-media Thickness (EMT), lipid profile, endothelial function. IMT and EMT will be obtained using carotid ultrasound. Endothelial function will be evaluated following a protocol of iontophoresis of acetylcholine and sodium nitroprusside. Inflammatory status will be measured looking at C-reactive protein plasma level.
Time frame: up to 3 months
To evaluate the relation between bone parameters (HR-pQCT) and adipokines; and the relation between bone parameters and cardio-vascular data (blood pressure, IMT, EMT, lipid profile, endothelial function).
Time frame: up to 3 months
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